Egg scouring machine



Feb. 3, 1953 N. F. MARzoLF EGG scouRING MACHINE Filed sept. 28, 1948 nventor wir W Feb. 3, 1953 N. F. MARzoLF EGG SCOURING MACHINE 5 Sheets-Sheet 2 Filed Sept. 28, 1948 Snventor Mofaz-,e7 E /V/l/PZOLE 5.3m, NV m w. MWI wh wm,

Feb. 3, 1953 N. F, MARzoLF 2,627,140

EGG SCOURING MACHINE Filed sept. 28, 194e s sheets-sheet s (Ittorneg Patented Feb. 3, 1953 EGG SCOURING MACHINE Norbert F. Marzolf, Strykersvlle, N. Y., assigner, by mesne assignments, to Paul L. Marzolf,

Strykersville, N. Y.

Application September 28, 1948, Serial No. 51,509

2 Claims.

This invention relates to a new and improved machine for washing eggs, and while it is designed and primarily intended for such use, it will be understood that the principles and fea-V tures of design and construction which have made it successful for such use are capable of embodiment in machines for washing similar objects, such as various fruits, etc.

It has long been known that eggs as collected from the nests have the shells fouled. This fouling impairs the keeping quality and lowers the market value, because most purchasers are adverse to buying eggs in such condition.

I am aware that machines have been proposed in the past for washing eggs. As far as I know, however, such machines are designed and bui1t to have a large capacity and are too bulky and expensive for use by any but large scale egg Droducers. Prior to my invention, no machines were available which the small operator could afford to buy and use.

The result of this has been that most eggs produced by small operators yhave been washed by hand, when washed at all. Such washing is a tedious, dirty and time-consuming job, and evidence appears to indicate that it is ineffective as far as concerns the keeping qualities of the eggs. It is known that if the natural bloom is removed from the shell in the washing process, the eggs do not keep as well. On the other hand, if the eggs are washed by hand by being scrubbed in a pail of water, while they may appear cleaner, actually they arenot and such scrubbing simply distributes the fouling over all the eggs in an invisible coating.

It is an object of this invention to provide an egg washing machine which is sufficiently simple andv economical to be used by egg producers who cannot afford the large capacity expensive machines now available.

It is a further object of this invention to provide a machine of -the class described in which the eggs may be fed into the machine through an inlet opening, are carried through the machine and Washed individually without attention by the operator, and are delivered into an outlet trough, from which they may be removed for packing.

It is a further object of the invention to provide a machine which is capable of handling the various sizes. of eggs likely to be encountered, without sorting, or adjustment of the machine.

It is a further object of this nventionto provide a machine-of the class described with an escapementmechanism to admit one egg at a time, regardless of variation in the size of the eggs, which will handle them without danger of cracking or breakage, washing them in clean solution not previously used on other eggs, turning and washing all parts of the shell, and finally delivering them in an outlet trough ready for packing.

It is a further object of this invention to provide a machine of the class described which will remove the fouling from the shell without removing the bloom, leaving the egg in the best keeping condition and with the best appearance.

Still other objects and advantages of my invention will be apparent from the specification. The features of novelty which I believe to be characteristic of my invention are set forth with particularity in the appended claims. My invention itself, however, both as to its fundamental principles and as to its particular embodiments, will best be understood by reference to the specification and accompanying, drawing, in which:

Fig. 1 is a perspective View of one form of machine according to my invention;

Fig. 2 is a front elevation partly in section;

Fig. 3 is a top plan view partly in section;

Fig. 4 is a section on lines 4-4 of Fig. 2;

Fig. 5 is a section on lines 5-5 of Fig. 2, showing particularly the escapement which feeds the eggs in one at a time Fig. 6 is a similar view but showing the mechanism displaced in its cycle from the position of Fig. 5;

Fig. 'I is a detail sectional elevation taken on line 'I-'I of Fig. 6, showing the inlet portion of the mechanism from the front, and

Fig. 8 is a fragmentary enlarged cross-sectional view taken on line 8,-8 of Fig. 4.

Referring nowl more particularly to the drawing, the embodiment of the machine herein described, which is for certain purposes the preferred form, is provided with a base I0, front and rear walls II and I2, end walls I3 and I4, and a top I5. The front wall II has inlet and outlet openings 30a and 3Ilb respectively, and both front and back walls are removable and are held in position by being inserted inside of iiange Illa on the base, and fingers IIa and IIb mounted on the end plates I3 and I4. At one end of the top I5 I mount an electric motor I6 which drives the machine. The shaft of the motor projects into a housing I'I having a grill IIa and carries a fan I8 for cooling the motor in operation, and a, pulleyl I9 for delivering power to the egg conveyor and scrubber. 'The-top I5 supports a con-- tainer 2| charged with the solution used in Washing the eggs. Container 2| has faucet 22 permitting flow of the solution from the container into funnel 23, which feeds a perforated pipe 24, extending longitudinally of the machine under the top I5.

The solution drips from the pipe 24 on a series of scrubber disks 25. These disks are usually fabric, coated with an abrasive such as sea sand held in place by waterproof glue, and are limp and flexible, so that they yield, to permit passage of the eggs along the conveyor. They are preferably mounted in spaced relation on shaft 26, mounted in bearings in the opposite end plates I3 and I4, and spaced apart by spacers 21. Preferably they are of different diameters, alternately.

The scrubber shaft 26 is, in this embodiment of the invention, driven by pulley 28 which carries belt 23 passing over the motor shaft pulley I9. The drive pulley is smaller than the' driven pulley so that the scrubber shaft 26 rotates slower than the motor I6.

The eggs passY into the machine at the inlet opening 30a in the front wall II, 'and are permitted to move, one by one, onto rotary cylindrical conveyor 3|, mounted on shaft 32 jour-Y nalled in bearings carried by the end walls I3 and I4. The conveyor 3| is mounted under the shaft 25, but close enough to it so that eggs passingl down the conveyor are scrubbed by the disks 25. Shaft 32is driven by pulley 33 carrying belt 34 which is driven by pulley 35 on scrubber shaft 26. These pulley sizes are so chosen that the conveyor 3| rotatesy considerably slower than scrubber shaft 25.-

The conveyor 3| is preferably covered with a surface layer of rubber or like material to provide friction .to rotate the eggsas they pass along, and surrounding theconveyor 3| and spaced outwardly therefrom I prefer to provide a helix of relatively heavy wire 40, held in position' on the conveyor by a series of spacer fingers 4|, secured to the conveyor 3| and the wire 40. The convolutions of the helix 40are so spaced as to admit the largest egg, likely to beaencountered, between adjacentturns. Front and rearv guard rails 42, 43 and44are-preferably provided above and on either side of the conveyor to confine the eggs to a path on top of the conveyor 3|, where they are engaged by theV scrubber disks 25 `in their passage through the machine, andthe front guard rail carries a vertical guard fin or strip 42a throughout most of its length. AThe left 4hand end of guard rail 42 is oiiset downwardly andout-r wardly at its left hand end to permit the eggs to pass out of the exit opening 30D. The right hand end of the guard rail 42a is cut away to provide easy passage of the eggs from the inlet trough 50 to the conveyor 3|. The guard stripv42a terrninatesY at the offset point as best seen in Figs. 3 and 4.

As the .eggs pass down the conveyor, they are.

rotated by engagement with the conveyor surface and pushed along bythe helix'49 so that.

.50 is preferably formedby bending a relatively heavy rod into an elongated U shape, with the base of the U portion turned up slightly. The trough is provided at its inner end with a flat strip 50a, having its ends turned up at 50D and 50c to confine the eggs and prevent them dropping into the casing before they reach the con veyor. Also, secured to strip 50a is a second strip 50d, having its outer end turned down, as at 50e, and its inner end downwardly offset as at 50i, which engages the underside of the guard rail 42. In assembling the rod and strips 50a and 50d, 50d is first attached, and then 50a is attached.

Triangular bracket plates IIc and IId, havingtheir upper. edges'notched as at IIe and IIf, projectv froml end walls I3 and I4 just below the inlet-and outlet openings 30a and 30h. The inlet-.trough is removable, and is positioned by being inserted through the inlet opening, with the downwardly offset end, 50j, under the front guard rail 42, and the bars of the trough resting in notch IIf on the top of bracket Ild. When inserted, it has a slight rearward tilt so that-the eggs roll by gravity into the machine.

Outlet trough 66 is somewhat similar to inlet troughl 50, and is formed of heavyrod bent tovan` elongated U-shape with` its outer end turned up slightly; Pan l0 having upturned sides 1| and l2 is secured to the bar, and atfthe inner end is -a strip |3, having its forward end bent down at 14-and its rear end downwardly offset at 15.

The outlet trough-is positioned by inserting the inner end through the outletvopening 30h, resting in notch Ile'infbracket- I-Ic with guard-raill 42 between offset 15 andthe ends of the bar, land the downturned end 'i4 behind bracket ||c. It preferably has a slight tilt downward toward the outer end when assembled.

The outer escapement finger 5| is preferably a rubber covered finger mounted on oscillating -nger carrier 53 pivoted at 54 througlrcollar 54a secured to finger carrier 53 on guard rail 43 adjacent endA wall I4, and extends'perpendicularly from the finger carrier. The inner escapement finger 52 is similarly mounted on the outer end of another oscillating finger carrier-55, likewise pivoted at 54. The'finger carrier 55 has a roller or cam follower 5B which rides onv the periphery of cam 5l, mounted'on conveyor shaft .32, having a fiat portion 58 covering about' 90 'of its periphery.

Except vwhen the follower 56 is in contactv with fiat portion 58, the roller 56 'is at the'vertical extent of its travel, in the position'shownv infFig'. 6, with the inner finger 52 in front of Athe first eggl and the outer finger 5| raised out of the'way of the second egg. Arm 53,' it will 'be fnoted, is raised when arm 55 is raised, bythe engagement of the rearwardly projectingA endV of finger' 52 under the lower edge' of plate 53, -as fshown'- in Figs. 5, 6 and '7.

When follower 55 reaches fiat portion' 58 of cam-51, both plates 55 and 53 are permitted vto rotate slightly clockwise, by gravityjto the position shown in Fig. 5, releasing' the rst' egg to pass onto the conveyor, against'b'ack stop plate" B3. Repeated rotation of the conveyor shaft repeats this cycle, permitting the eggs to roll, one

by one, onto the conveyor. It Will be noted'tha't the second egg is not released -to pass onto the conveyor until the first egg has advanced' one at whichthe eggftravels alongmost-of the con-y veyor is somewhat below the level at which the egg passes oi the inlet trough. To prevent the eggs dropping, with the consequent danger of breakage, the inlet portion of the conveyor on to which the egg rolls is enlarged over about half f its diameter, as will be clear from Figs. 5, 6 and 7. The enlarged portion is designated as 6I and leads to a circumference, of approximately 90 angular extent circumferentially, of enlarged diameter to receive the egg as it moves off the inlet trough, and against back plate 60. As the conveyor rotates, the egg rolls smoothly down the sloping portion to the portion of smaller diameter.

Eggs cannot fall off the inlet trough when this enlarged diameter portion is not in place to receive them, because the inner escapement iinger 52 is raised except when this enlarged portion is in correct position, and this blocks the entry of eggs to the conveyor.

As the eggs reach the end of the conveyor, they ride against the projecting finger 65 (best shown in Fig. 4), which may be riveted to the conveyor tube (see also Fig. 3), which pushes the egg oil? the conveyor into outlet trough 66, already described.

In the specification I have particularly pointed out and Adistinctly claimed the part, improvement, or combination which I claim as my invention or discovery, and I have explained the principles thereof, and the best mode in which I have contemplated applying those principles, so as to distinguish my invention from other inventions.

While I have shown and described certain preferred embodiments of my invention, it will be understood that modifications and changes may be made without departing from the spirit and scope thereof, as Will be clear to those skilled in the art.

I claim:

1. In mechanism of the class described, in combination, a frame, a rotary screw conveyor journalled in said frame with its axis horizontal, a scrubber shaft carrying flexible scouring means of sufficient size to touch objects traveling on said conveyor journalled in said frame in parallel spaced relation to the axis of said conveyor and extending longitudinally thereof, an inlet trough at one end of said conveyor, an outlet trough at the other end thereof, and means for admitting objects to be washed from said inlet trough to said conveyor one at a time, said means including a pair of lingers movable into and out of the path over said trough to said conveyor, said fingers being disposed longitudinally of said path, and operable alternately into and out of said path, in Isuch a manner that one of said fingers is always in said path.

2. In mechanism of the class described, in combination, a frame, a rotary screw conveyor journalled in -said frame, a scrubber sha-it carrying iiexible scouring means of sufficient size to touch objects travelling on said conveyor journalled in said frame in spaced parallel relation to the axis of said conveyor and extending longitudinally of said conveyor, an inlet at one end of said conveyor, an outlet at the other end thereof, and means for admitting objects to be washed from said inlet to said conveyor one at a time, said means including a pair of fingers disposed one behind the other along the line cf the inlet path over said conveyor, with one of said lingers blocking said path, and means driven in synchronism with said conveyor for moving .both said fingers to cause the blocking finger to open the path and the other iinger to block said path, said last mentioned means including a cam mounted at one end of said conveyor and synchronized therewith and a cam follower driven by said cam and driving said iingers.

NORBERT F. MARZO-LF.

REFERENCES CITED The following references are of record in the le of this patent:

UNITED STATES PATENTS Number Name Date 317,601 Welker May 12, 1885 503,210 Learned Aug. 15, 1893 1,248,051 Agnew Nov. 27, 1917 1,530,415 Roussel Mar. 17, 1925 2,005,115 Stutz June 18, 1935 

